Transmitting apparatus for wireless telegraphy.



G. MARGONI.

TRANSMITTING APPARATUS FOR WIRELESS TELEGRAPHY.

APPLICATION FILED 0011,1907.

935,333, Patented Sept. 28, 1909.

- teeth a'oject inn tween the teeth of the other,

LONDON, ENG-LAND, ASSIGNOR AMERICA. 01?

t /i1 t 1 trainer t TO MARCONI IE/E- NEW YORK. N. Y., A CORPQRATION TRANSMXTTING APPARATUS FORhVIRELESS TELEGRAPHY.

Bpecification of Letters Eatent.

Patented sepia 2% tJtiiD,

Application filed October 1, 1907. Serial No. 395,456.

To all whom may concernf Be it known that l, tiuoiinamio itlwnooxi, LL. 1)., D. Sc, a subject oltheKingof Ttai v, residing at tlatergatc House, York Buildings, Adclphhin the county ot' Middlescx, llnglamh ha vc invented new and uselul improvements in 'lransmitting Apparatus for Wireless 'l 'clegraphy of which the follow ing is a specification.

it has before been proposed to en'tploy for wireless telegraph altermning currents generated without the use of a spark ,gap, lHttYStltfll attempts have not heretofore resulted in practical success, because owing to the type of apparatus employed the current was insufficient to transmit si nals to any considerable distance. it has atso been proposed to transform a continuous current into an alternating current by successively charging a condenser the direction of the charging current being reversed after each charge by means oi a commutator, but it has been itnpossible with apparatus'ot this class to produce alternating currents cl. a frequency high enough to insure etlicicnt radiation.

Accordingto this invention a novel form of apparatus is empmyed which is particularly suitable t'or producing a ternating currents of suliiciently high power eliiciently to radiate The arrangements which nave been successfully employed are as follower-A revolving toothed commutator ot special construction which may be termed a gei'lerator wheel is employed. every alternate tooth which is connected to one pole of a source of current such as a direct current dynamo, while the other teeth are connected to the other pole. The cncrator wheel formed of two metal di s, with equally spaced ually outward from their pertphcries.- 'ihesc disks are tixed side by side but are insulated from each other; the teeth of one disk being spaced midway be and the bodies of'the dislts are respectively connected to the two poles ofthe current. gen'crat or. ll'ith this mode of construction the generator wheel can be rotated at a very considerable speed without danger-oi? damage or of distortion of the teeth which might otherwise result from the action'ot' centri'ti'ugal force,

reuuency and cl ectric waves.

t l l l l t l l t t t l t t l t i t t l t t l l l i l l and the insulation between the oppositely charged sets oi teeth can be made very etiicient.

Revolving in the same plane and in the same direction as the generator wheel and in close proximity to it but not in contact with itis a toothed collector consisting of a 'ililll! tut-tat dish the outer rim oi \vhicl is broad enough to carry teeth which will project, over the teeth ol both disks ot the generator wheel, the distance between the teeth on this collector wheel being the same as that bctween the teeth ot either ol' the two distts o't the generator wheel.

The collectm' wheel is connected, throus l an indtwtance to one plate of a condenser, (called the working condenser) the other plate ot'wvhich is connected to the middle point oi a pair of condensers (called the reservoir condenser) placed as a shunt across the terminals of the dynamm the capacity of the reservoir condense being preferably larger than that of the working condenser. it the reservoir condenser is omitted the working ct'indcnser should be connected to a point; in the winding of the generator or source of electricity. where the potential between the said n'oiiit and one of the poles half that existing between the pole 'tho working condenser may aiso be omitted the reservoir condenser in this case becorning'in effect pair of oppositely charged cot nsers which are d scharged altermnely.

The eiectrontotivc force of the source of electricity employed should be suliicit-nt to cause the current to j ttlll) the small air space between the teeth ot' the generator wheel and the teeth ot' the collector wheel as these pass each other when revolving close together, and in order to prevent short circuits between the teeth oi the generator wheel as they pass the collector it, is desirable that the space between the teeth should be large compared to the space between the edges: of the teeth of the collector and generator wheels.

155 surrounding the spark-gap, including the generator and collector wheels. by contprcsscd'aitzin any well known way higher electronwttve forces ma y be employed in tin sparlbgaps. i do not claim these features as a part of my invention, their use being I well known in the art.

As it is necessary to rotate the above described bars or disks at a considerable speed these should be constructed in such a manner and of such material as safely to allow of a high peripheral speed such as is obtained in high speed turbine wheels. The disks can be advantageously coupled or geared to rapidly revolving electric motors or steam turbines, and the collector and generator disks or contacts should be electrically insulated from earth and from the motor by which they are rotated. It has been found practicable-to obtain a peripheral speed of over 400 meters per second on a collector wheel and 200 meters per second on a generator wheel, and by using teeth. sutliciently closely spaced an alternating current of over 100,000 periods per second can be obtained.

An inductive or conductive connection is made between the circuit containing the collector or generator wheel and the transmitting antenna. The inductance and resist- -anceof the circuit and the capacity of the working condenser should be such that at the speed at which the generator and collector wheels are driven it is just charged in the period of time during which the collector is taking'current from each tooth 0f the generator. A variable non-inductive resistance in the circuit also vfacilitates the 'adjustments.

By means which are now well known the .period of oscillation of the aerial should be brought into resonance with the period of the alternating currents circulating in the above mentioned circuit. The oscillations transmitted through space can. be detected at a receiving station by means of the well known receivers or detectors employed for wireless telegraphy, it being especially desirable when using the waves generated in the manner described to utilize to the ut- -most the principle of resonance in the re ceivers. The receivers should preferably contain a responsive oscillation circuit with as'little damping as possible. In consequence of the fact that the oscillations emanatin'g from the transmitter may be continuous it will in that case be desirable to arrange well known means, such as a short circuit or make and break, by which the detector only intermittently forms part of the receiving oscillation circuit.

The transmitting apparatus may be arranged to transmit regular groups of 'oscil lations instead of a continuous stream, in which case the teeth of the disks are arranged in groups alternately with blank spaces, and in this case the receivers may be tuned to respond to the periodicity of these groups of oscillations as well as to the periodicity of the oscillations which go to constitute each group.

In. place of employing a continuous current dynan'lo, an alternator or transformer may be employed, but in this case the periodicity of its current should be low compared with that of the current produced as above described.

The drawings show the form of apparatus it is preferred to employ.

Figure l is a diagram of the transmitting apparatus showing one method of connecting the circuits. Fig. 2 is a sectional view of :1 generator wheel taken substantially on a diameter thereof and showing diagrammatically the manner of connecting the same to the sending circuit. Figs. 3 and i are respectively plan and elevational views of a portion of the generator wheel. lfligs. 5 and (3 are respectively plan and elevational views oi a portion of the collector wheel.

a and Z) are solid disks of metal having teeth 1, 2 cut on their peripheries. .These disks are insulated from each other by a ring of mica or vulcanite c. The disks are fixed together by bolts d which are insulated from the disks by insulating washers and bushes. As will be seen the teeth 1 and 2 alternate with each other. The disks have bolted to them shafts'S at the bearings 5 and G of which arc-moun ted on insulating plates 7. The corresponding collector wheel 0 is made in one piece of metal, its teeth being at the same distance apart as the teeth 1. or 2 and the bearings of its shalt are mounted on insulating plates.

f is a continuous current dynamo having its poles connected to brushes 9 and h in contact with the disks a and-b respectively.

.j a brush in contact with the collector wheel and connected to one plate of the working condenser l: the other plate of which is connected to a ncntralplatc in the reservoir condenser Z in a shunt across the poles of the dynamo m and n. are the primary and secondary 01 an ordinary jigger employed in wireless telegraphy and 0 is the antenna.

2 is a sending key or similar circuit controlling device for defining the signals transmitted.

hat. I (zluiinis':

1. In transmitters for wireless telegraphy, the combination with a sending circuit, mechanically operated means for positively completing and iuterru ting said circuit synchronously with the'time period of Hertziau oscillations of definite frequency.

. 2. In transmitters for wireless telegraphy,

the con'ibination with a sending circuit, me-- cillations of definite "frequency.

3. In a transmitter for wireless telegraphy, the combination with an osc1llatory c rcuit mechanically operated means for positively V 211; UK

iiiipaarlinix' z: i mined ,a minimum iezu l ew? e-niiiiemie 111. i110 izm bei situated zilteiiiizite i eiziaiinfei'ei'e 11:11 LlCL'iHHL and a pan-L cui'ipeb zii'iiig Wiih s1" Wheei to hiring each of mini ieeiii into when "l f(( l3. in ULIILSHI Pil), 21 s um-k gap 00 i a toothed Li of liilji'z'ii fixed together :siiizii'e l 139111 each M110 the teeth of one alternating with i A. In irunsmi'itei's for WM ess teiegi phy, the eunibiimtion parallel testbed disks of metal fixed together but insulated from eliieh other, a smliife, of current, 1 cunduster .iPLUiiIJg Emu! one pane of (he i-seui'ee of current to one (iisig'u second conductor ieuiiing i'i'um the other pole to the. other disk, :1 eondensei' pmvic ,1 Y El L ieiitrzil plate placed in :i Shunt bei wee w 0011 ductoi'ri, i1 toothed eiiiieeini' HEB-L and 2: e011- iluewi' euniieei'ing the i'eeih (if the eolleefier Wheel 10 ihe neuinil plate of the ceniiei 01'. i

1.). In ti'znisiiiiiiei's for \i'ireless tiegrzh pix he :mubinatien of pau'uliei toothed disks e1 iiietzii fixed tugetiiei' but insiilai'ed fi'ein each nihei'. :1 sum-e0 of current, ii e niueior leading from one po of the source of current, in one dis a nd comiuctor disk, 21 (xiiiiienseipi'm ed Wii'h aneuirni pL-iie ilneeii i1! shunt bei'iveen Hie two e011- ihiviom, :1. ineiiied eoiievi'or Wheel, a 00: iiiiviui' umiieciing the Peiii 0f the coilecter wheel to the nwiii'ui plate of the condenser, and :1. Sii'OlHi condenser in the lust mentioned i-miiliii-iuiv kw ieiegizipiiy, 2i rotatable boi y, means fer whiting sziiii bud 211' a high 5, iuwzleil :uijzu'eiii. r zliLi 1131i 21 318 body jliiming spark gaps IhLi'QWI l 116011209" Lfi((ii'i( energy connected with said terminals mimenser collal'eiezi 'in parallel with Sam terminals. and 11-11 oscillatory eircuitecir rimvii with said i-ninl'zibiiz body and with me middle point (2! neutral plate 0f said c0niieiisei'. i

he teeth i the. uiher, 

